Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy

Evolution of Earth’s climate system over the past 800,000 years represents a complex process with successions of uneven glacial and interglacial periods. The length, amplitudes, and development of each climate cycle depend on a number of different factors, including the orbital parameters...

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Bibliographic Details
Published in:Nature Precedings
Main Authors: Yuriy Polyakov, Jean Robert Petit, Serge Timashev
Format: Still Image
Language:unknown
Published: 2009
Subjects:
Earth & Environment
Antarctic
Antarc*
EPICA
ice core
Ice Sheet
Online Access:http://precedings.nature.com/documents/3341/version/1
https://doi.org/10.1038/npre.2009.3341.1
id ftnature:oai:nature.com:10.1038/npre.2009.3341.1
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spelling ftnature:oai:nature.com:10.1038/npre.2009.3341.1 2023-05-15T13:46:06+02:00 Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy Yuriy Polyakov Jean Robert Petit Serge Timashev 2009-06-14T18:02:18Z http://precedings.nature.com/documents/3341/version/1 https://doi.org/10.1038/npre.2009.3341.1 unknown Creative Commons Attribution 3.0 License CC-BY Nature Precedings Earth & Environment Poster 2009 ftnature https://doi.org/10.1038/npre.2009.3341.1 2015-11-19T12:55:14Z Evolution of Earth’s climate system over the past 800,000 years represents a complex process with successions of uneven glacial and interglacial periods. The length, amplitudes, and development of each climate cycle depend on a number of different factors, including the orbital parameters attributed to insolation and the complex responses of the Earth system to solar radiation primarily through the amplification by Earth’s albedo and greenhouse gas and secondarily through a system of heat reservoirs, such as ice sheet and deep ocean, distributed throughout our planet. The purpose of this study is to analyze the transitions related to climate cycles in Antarctic ice core data (EPICA Dome C) of deuterium composition and dust concentration recorded for the past 800,000 years [1] using Flicker-Noise Spectroscopy (FNS), an analytical toolset for the extraction and analysis of information in stochastic time and space series, containing both regular and chaotic components, by using power spectra and difference moments (structural functions) of various orders [2]. 

The FNS nonstationarity factors for the deuterium composition and dust (logarithm) concentration, which represent the normalized discrete derivative of the second-order structural function of the source signal with respect to a given shifted “window” interval, were built for different intervals of averaging to identify the major changes in the dynamics of both time series and their precursors. It is shown that when displayed together with the source signals, the positive peaks in the nonstationarity factors provide more reliable estimates of the transition of the climate system from one sub-period to another within a specific climate cycle as compared to predefined thresholds in dust or deuterium values. For climatic transitions, the power spectral estimates of the nonstationarity factors contain several periodicities in addition to the orbital ones. These frequencies may be attributed to specific heat accumulation and discharge processes in the climate system. The results of this study demonstrate the potential of FNS in the analysis of climate data series and may be used in refining climate transition models.

This study was supported by the Russian Foundation for Basic Research, project no. 08-02-00230a.
[1] Lambert F., et al. (2008) Dust-climate couplings over the past 800,000 years from the EPICA Dome C ice core, Nature 452, 616-619.
[2] Timashev, S. F., Polyakov Yu. S. (2007) Review of flicker noise spectroscopy in electrochemistry, Fluctuations and Noise Letters 7(2), R15-R47.
 Still Image Antarc* Antarctic EPICA ice core Ice Sheet Nature Precedings Antarctic Nature Precedings
institution Open Polar
collection Nature Precedings
op_collection_id ftnature
language unknown
topic Earth & Environment
spellingShingle Earth & Environment
Yuriy Polyakov
Jean Robert Petit
Serge Timashev
Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
topic_facet Earth & Environment
description Evolution of Earth’s climate system over the past 800,000 years represents a complex process with successions of uneven glacial and interglacial periods. The length, amplitudes, and development of each climate cycle depend on a number of different factors, including the orbital parameters attributed to insolation and the complex responses of the Earth system to solar radiation primarily through the amplification by Earth’s albedo and greenhouse gas and secondarily through a system of heat reservoirs, such as ice sheet and deep ocean, distributed throughout our planet. The purpose of this study is to analyze the transitions related to climate cycles in Antarctic ice core data (EPICA Dome C) of deuterium composition and dust concentration recorded for the past 800,000 years [1] using Flicker-Noise Spectroscopy (FNS), an analytical toolset for the extraction and analysis of information in stochastic time and space series, containing both regular and chaotic components, by using power spectra and difference moments (structural functions) of various orders [2]. 

The FNS nonstationarity factors for the deuterium composition and dust (logarithm) concentration, which represent the normalized discrete derivative of the second-order structural function of the source signal with respect to a given shifted “window” interval, were built for different intervals of averaging to identify the major changes in the dynamics of both time series and their precursors. It is shown that when displayed together with the source signals, the positive peaks in the nonstationarity factors provide more reliable estimates of the transition of the climate system from one sub-period to another within a specific climate cycle as compared to predefined thresholds in dust or deuterium values. For climatic transitions, the power spectral estimates of the nonstationarity factors contain several periodicities in addition to the orbital ones. These frequencies may be attributed to specific heat accumulation and discharge processes in the climate system. The results of this study demonstrate the potential of FNS in the analysis of climate data series and may be used in refining climate transition models.

This study was supported by the Russian Foundation for Basic Research, project no. 08-02-00230a.
[1] Lambert F., et al. (2008) Dust-climate couplings over the past 800,000 years from the EPICA Dome C ice core, Nature 452, 616-619.
[2] Timashev, S. F., Polyakov Yu. S. (2007) Review of flicker noise spectroscopy in electrochemistry, Fluctuations and Noise Letters 7(2), R15-R47.

format Still Image
author Yuriy Polyakov
Jean Robert Petit
Serge Timashev
author_facet Yuriy Polyakov
Jean Robert Petit
Serge Timashev
author_sort Yuriy Polyakov
title Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
title_short Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
title_full Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
title_fullStr Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
title_full_unstemmed Analysis of Antarctic Ice Core Data (EPICA Dome C) with Flicker-Noise Spectroscopy
title_sort analysis of antarctic ice core data (epica dome c) with flicker-noise spectroscopy
publishDate 2009
url http://precedings.nature.com/documents/3341/version/1
https://doi.org/10.1038/npre.2009.3341.1
geographic Antarctic
geographic_facet Antarctic
genre Antarc*
Antarctic
EPICA
ice core
Ice Sheet
genre_facet Antarc*
Antarctic
EPICA
ice core
Ice Sheet
op_source Nature Precedings
op_rights Creative Commons Attribution 3.0 License
op_rightsnorm CC-BY
op_doi https://doi.org/10.1038/npre.2009.3341.1
container_title Nature Precedings
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